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New Mexico State University

Klipsch School of Electrical and Computer Engineering

Grants

  1. Supervisory Circuits, 2018-2019, Sandia, $94K, Continue investigation and verify proto-type IC monitoring system.
  2. Supervisory Circuits, 2017-2018, Sandia, $94K, Investigate the role of a trusted supervisory circuit implemented in an old technology node; the circuit being monitored will be a commercial-off-the-shelf, state-of-the-art IC.
  3. High-Voltage Power Sources for Differential Ion Mobility Spectrometry, 2014-2015, NASA EPSCoR and NM Space Grant Consortium, $34K, Design and development of high-voltage current regulator and high-voltage high-frequency power sources for Ion Mobility Spectrometers for the detection of toxins in air.
  4. Integrated Optical Phase Detector, 2003-2004, Lockheed Martin, $45K, Design, simulation, layout verification and electro-optic testing of heterodyne wavefront phase sensor array in a 0.5-micron CMOS process.
  5. Intelligent Satellite Systems, 2000-2001, Air Force Research Lab via ARL, $39K, Design, simulation, layout, verification and static/DC testing of a large array (40 x 40)wavefront reconstructor chip in a 0.5-micron CMOS process. Jointly develop a star centroiding circuit.
  6. Smart Vision Chips, 1999, Air Force Research Lab via WSMR, $48K, Integrate a 16×16 CMOS pseudo-resistive array for solving Poisson’s equation at a bandwidth of 100 Hz or higher. Integrate CMOS photodiode arrays for use in subaperture centroid circuits.
  7. VLSI Circuits for a Miniature Adaptive Optics System, 1998, S. Systems, $40KDevelop a micro-power proto-type 2-D Poisson equation solver for real-time reconstruction of image data. Integrate a CMOS photodiode array with subaperture centroiding circuits for use with a Hartmann wavefront sensor.